JP4193727B2 - Reception quality display system, reception quality communication system, communication apparatus, and reception quality display method - Google Patents

Description

  The present invention relates to a reception quality display system, a reception quality communication system, a communication apparatus, and a reception quality display method. Specifically, when the video signal is transmitted as the first radio signal and the video display is performed based on the video signal obtained by receiving the first radio signal, the reception quality of the first radio signal is measured. The measurement result is transmitted as a second radio signal, and a video signal indicating the measurement result obtained by receiving the second radio signal is transmitted as the first radio signal.

  In recent video display systems, the degree of freedom in system configuration is increased by making video display functions independent. For example, various video display devices configured using display elements such as a plasma display panel or a liquid crystal display panel, and video signal output devices having a tuner function, a recording medium playback function, etc., are individually provided to meet the user's request. The video display system can be freely configured by connecting the video display device and the video signal output device.

  However, if the video display device and the video signal output device are provided independently, the devices must be connected by a cable, and the layout of the device is limited. In addition, the cable is exposed and the appearance is not good. For this reason, for example, Patent Document 1 discloses a video display system that transmits a video signal in a wireless manner between a video signal output device such as a PC and a video display device such as a liquid crystal projector.

JP-A-10-145797

  By the way, when transmitting an ultra-high-definition image or a high-definition moving image using a radio signal, a very high transmission speed is required. Therefore, wireless transmission using millimeter waves is performed. In this way, when communicating using a high frequency, the millimeter wave has a strong linearity, so a high gain antenna is used so that communication can be performed efficiently even with low transmission power. It is done. When an antenna with a high gain is used in this way, an operation for correctly adjusting the orientation is required when installing the antenna.

  Here, while checking the quality of the video displayed on the video display device, for example, by adjusting the direction of the antenna on the transmission side, it is easy to determine which direction is the optimal direction if no significant difference in quality appears. It cannot be determined. Also, even if the reception level is displayed on the radio signal receiving device, the receiving device is provided at a position away from the transmitting device, so the direction of the transmitting antenna is adjusted by reading the display on the receiving device. It is difficult. Furthermore, if a display unit having a large display size is provided in the receiving apparatus so that the display can be easily read from the transmission side, it is difficult to reduce the size and cost of the receiving apparatus.

  Therefore, the present invention provides a reception quality display system, a reception quality communication system, a communication device, and a reception quality display method that can easily adjust the orientation of an antenna when wirelessly transmitting video. .

  The reception quality display system according to the present invention includes a video signal output device that outputs a video signal, a first communication device that transmits the video signal output from the video signal output device as a first wireless signal, A second communication device that receives a wireless signal and generates a video signal from the first wireless signal; and a video display device that displays a video based on the video signal generated by the second communication device. The second communication device measures the reception quality of the first radio signal and transmits the measurement result as the second radio signal, and the first communication device receives the second radio signal. The measurement result is supplied to a video signal output device, and the video signal output device generates and outputs a video signal indicating the measurement result supplied from the first communication device.

  The reception quality communication system according to the present invention includes a first communication device that transmits a video signal supplied from a video signal output device as a first radio signal, and the first radio signal that is received by the first radio signal. A second communication device that generates a video signal from the signal and outputs the generated video signal to the video display device; the second communication device measures the reception quality of the first radio signal and outputs the measurement result to the second radio signal; The first communication device has a receiving means for outputting a measurement result obtained by receiving the second radio signal.

  A communication apparatus according to the present invention receives a second wireless signal indicating a measurement result of reception quality of a first wireless signal by transmitting means for transmitting an input video signal as a first wireless signal, Receiving means for outputting the measured results.

In addition, the communication device according to the present invention includes a receiving unit that outputs a video signal obtained by receiving a first wireless signal transmitted from another device on the video transmitting side, and a reception quality of the first wireless signal. And a transmission means for transmitting the measurement result measured by the measurement means as a second radio signal to another device .

  A communication quality display method according to the present invention uses a video display system that transmits a video signal as a first wireless signal and displays a video based on the video signal obtained by receiving the first wireless signal. The reception quality of one radio signal is measured and the measurement result is transmitted as a second radio signal, and the video signal indicating the measurement result obtained by receiving the second radio signal is transmitted as the first radio signal. Is.

  In the present invention, a first communication device that transmits a video signal as a first radio signal and a first radio signal are received between the video signal output device that outputs the video signal and the video display device. A second communication device that supplies a video signal generated from the first wireless signal to the video display device is connected via a digital interface provided to connect the video signal output device and the video display device. In the second communication apparatus, the reception quality of the first radio signal is measured, and the measurement result is transmitted as a second radio signal using a frequency band lower than that of the first radio signal. A measurement result obtained by receiving the second wireless signal by the first communication device is supplied to the video signal output device. In the video signal output device, a video signal in which the measurement result supplied from the first communication device is, for example, a superimposed display is generated and supplied to the first communication device.

  According to this invention, between the video signal output device and the video display device, the first communication device that transmits the video signal as the first radio signal, the first radio signal, A second communication device is provided for supplying a video signal generated from the wireless signal to the video display device. The second communication apparatus measures the reception quality of the first radio signal and transmits the measurement result as the second radio signal. The first communication apparatus is obtained by receiving the second radio signal. The measurement result is supplied to the video signal output device, and the video signal output device generates a video signal indicating the measurement result supplied from the first communication device and supplies the video signal to the first communication device. For this reason, since the video showing the reception quality can be displayed on the screen of the video display device, the video of the reception quality displayed with reference to the video showing the reception quality displayed on the screen of the video display device can be improved. The direction can be adjusted easily. Since the video signal indicating the reception quality is generated by the video signal output device, the reception quality is indicated on the video display device even when the video signal is encrypted and output for copyright protection. Can display video.

  In addition, since the second radio signal has a lower straightness than the first radio signal by using a lower frequency band than the first radio signal, the second radio signal can be easily received. Can do.

  In addition, the connection between the video signal output device and the first communication device, and the connection between the second communication device and the video display device are digital interfaces provided for connecting the video signal output device and the video display device. Use. Therefore, it is not necessary to provide an interface for connecting the communication device to the video signal output device and the video display device, and the existing video signal output device and the video display device can be used.

  Furthermore, the video signal output device can adjust the antenna direction while viewing a broadcast program or the like by using the superimposed result as a measurement result supplied from the first communication device.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the reception quality display system. The video signal output device 10 receives a broadcast signal and reproduces a recording medium to generate and output a video signal. The video signal output device 10 superimposes and outputs a video signal indicating various information on the generated video signal. The video display device 50 performs video display based on the video signal supplied from the video signal output device 10.

  The video signal output device 10 and the video display device 50 are connected via a digital interface, and the video signal output device 10 outputs a video signal as a transmission method signal suitable for video transmission via the digital interface. To do. For example, as a transmission system suitable for video transmission, a serial transmission system called TMDS (registered trademark of Silicon Image, USA): Transition Minimized Differential Signaling is used. As a digital interface, a digital interface called DVI (registered trademark of Digital Display Working Group): Digital Visual Interface or a digital interface called HDMI (registered trademark of HDMI Licensing, LLC): High Definition Multimedia Interface is used.

  The video display device 50 performs video display by driving a display element based on a signal supplied via a digital interface.

  By providing the communication devices 20 and 40 between the video signal output device 10 configured as described above and the video display device 50, the video signal is transmitted as a wireless signal from the video signal output device 10 to the video display device 50. By doing so, the video signal output device 10 and the video display device 50 can be installed at positions separated from each other. The communication devices 20 and 40 wirelessly transmit a video signal using a frequency of, for example, a 60 GHz band, which is a millimeter wave band, so that an ultra-high definition video or a high-quality moving image can be transmitted. Further, between the communication device 20 and the communication device 40, wireless transmission of information related to the video display device 50, control information for controlling the video display device 50, information indicating the reception quality of the wireless signal, and the like is also performed. The wireless transmission of these information may use the millimeter wave band, and does not require a high transmission speed like a moving picture, so it is used in a frequency band lower than the millimeter wave band, such as a wireless LAN. A microwave frequency can be used. Thus, by using a frequency band lower than the wireless transmission of the video signal, the wireless transmission of information is less straight forward than the wireless transmission of the video signal. In addition, information can be transmitted wirelessly without adjustment with high accuracy.

  FIG. 2 is a block diagram showing the configuration of the video signal output device 10. The video signal generation unit 11 is configured using a tuner, a hard disk drive, a media drive, and the like, and receives a broadcast program, reproduces content recorded on the hard disk drive, an optical disk, a magneto-optical disk, or the like. The content recorded on a medium such as a memory card composed of semiconductor elements is reproduced, and a video signal is generated and supplied to the display superimposing unit 12.

  The display superimposing unit 12 superimposes the video signal for information display supplied from the control unit 16, which will be described later, on the video signal supplied from the video signal generating unit 11, and the transmission signal generating unit 13 as a transmission video signal. To supply. For example, a video signal for displaying information on the channel selected by the tuner, the playback state of the media, and the video signal for displaying the reception quality described later are superimposed.

  The transmission signal generation unit 13 converts the transmission video signal into, for example, a serial transmission method signal suitable for video transmission. For example, transmission encoding processing of the supplied video signal is performed to balance the DC level and minimize the number of inversions of the logic level to generate a differential drive type serial three primary color signal. Further, the clock signal of the serial three primary color signals is also generated by the differential driving method. Furthermore, when copyright protection is performed on the video signal to be transmitted, the transmission signal generation unit 13 encrypts the transmission video signal and generates a serial transmission signal using the encrypted transmission video signal. The serial transmission signal and clock signal generated in this way are output from the interface 14.

  When the information signal is supplied from the control unit 16, the information signal processing unit 15 outputs the information signal from the interface 14. When an information signal is supplied via the interface 14, the received information signal is supplied to the control unit 16.

  The control unit 16 is connected to each unit via a bus 17 and controls a video signal generation operation in the video signal generation unit 11, a serial transmission signal output operation in the transmission signal generation unit 13, and the like. When the information signal indicating the reception quality measurement result in the communication device 40 is supplied from the information signal processing unit 15, the video signal generation unit controls the display superimposing unit 12 to display the video signal indicating the reception quality measurement result. 11 is superimposed on the video signal generated in step 11.

  FIG. 3 is a block diagram illustrating a configuration of the communication device 20 on the video transmission side. The serial transmission signal and clock signal supplied to the interface 21 of the communication device 20 are supplied to the transmission signal processing unit 221 of the transmission unit 22.

  The transmission signal processing unit 221 decodes the serial transmission signal with reference to the clock signal, and returns the serial transmission signal to the original video signal. Further, an error correction code such as a Reed-Solomon code is added for each predetermined amount of the video signal to form a signal in units of packets. A plurality of packets in a packet unit are combined into a frame structure signal, a transmission video signal is generated by adding header information indicating a synchronization signal, a transmission destination, etc. to the frame structure signal, and is supplied to the transmission processing unit 222 To do.

  The transmission processing unit 222 modulates the supplied transmission video signal, up-converts the signal into a signal in a frequency band for wireless transmission, for example, a 60 GHz band, amplifies the signal, supplies the signal to the antenna 31, and transmits the first wireless signal. .

  The information signal processing unit 231 of the information transmitting / receiving unit 23 generates a transmission information signal based on the information signal supplied through the interface 21 and supplies the transmission information signal to the communication processing unit 232. The communication processing unit 232 modulates the supplied transmission information signal, up-converts, and then a second radio signal having a lower frequency band than the radio signal transmitted from the transmission processing unit 222, for example, 2.4 GHz band or 5 GHz. It transmits from the antenna 33 as a band radio signal. Further, the communication processing unit 232 performs down-conversion and demodulation of the radio signal received by the antenna 33 and supplies the obtained reception information signal to the information signal processing unit 231. The information signal processing unit 231 outputs the received information signal supplied from the communication processing unit 232 via the interface 21 as an information signal corresponding to communication with the video signal output device 10. If the information signal processing unit 231 performs error correction processing, wireless transmission of information signals can be performed correctly.

  The control unit 24 is connected to each unit via the bus 25, and controls the operation of each unit so that video signal wireless transmission and information signal wireless transmission / reception are correctly performed.

  FIG. 4 is a block diagram illustrating a configuration of the communication device 40 on the video reception side. A radio signal received by the antenna 32 is supplied to the reception processing unit 411 of the reception unit 41.

  The reception processing unit 411 demodulates the received radio signal by down-converting it, and supplies the received video signal obtained to the reception signal processing unit 412. In addition, the reception processing unit 411 generates information indicating the signal level of the received radio signal and supplies the information to the control unit 44.

  The received signal processing unit 412 extracts the received video signal addressed to itself based on the header information of the received video signal. Further, error correction processing is performed on the extracted received video signal. The received video signal after the error correction processing is supplied to the video display device 50 via the interface 42 as a transmission signal of a transmission method suitable for video transmission. The received signal processing unit 412 measures the error rate when performing error correction processing, and supplies the measurement result to the control unit 44.

  The information signal processing unit 431 of the information transmitting / receiving unit 43 generates a transmission information signal based on the information signal supplied through the interface 42 and supplies the transmission information signal to the communication processing unit 432. The communication processing unit 432 modulates and up-converts the supplied transmission information signal, and then transmits it from the antenna 34 as a radio signal having the same frequency band as the radio signal transmitted from the antenna 33 described above. Further, the communication processing unit 432 performs down-conversion and demodulation of the radio signal received by the antenna 34 and supplies the obtained reception information signal to the information signal processing unit 431. The information signal processing unit 431 outputs the received information signal supplied from the communication processing unit 432 via the interface 42 as an information signal corresponding to communication with the video display device 50. If the information signal processing unit 431 performs error correction processing, wireless transmission of information signals can be performed correctly.

  The control unit 44 is connected to each unit via the bus 45, and controls the operation of each unit so that video signal wireless transmission and information signal wireless transmission and reception are performed correctly. Further, information indicating the signal level of the radio signal supplied from the reception processing unit 411 and information indicating the measurement result of the reception quality of the radio signal received by the antenna 32 based on the error rate supplied from the reception signal processing unit 412. Is supplied to the information signal processing unit 431, and information indicating the measurement result is transmitted as a radio signal.

  Here, in the information signal wirelessly transmitted between the antennas 33 and 34, the remote control information, the information regarding the operation state exchanged between the video signal output device 10 and the video display device 50, the video signal output device 10 and the video. Information for performing device authentication and the like between the display devices 50 is shown. Further, as described above, information indicating the measurement result of the reception quality of the radio signal received by the antenna 32 is transmitted as an information signal from the communication device 40 to the communication device 20 as a radio signal.

  Next, the reception quality display operation will be described. The video signal output device 10 supplies the communication device 20 with a video signal generated by receiving a broadcast program and playing media.

  The communication device 20 converts the video signal supplied from the video signal output device 10 into a radio signal and transmits it from the antenna 31.

  The communication device 40 receives the radio signal transmitted from the communication device 20 with the antenna 32 and measures the reception quality. Further, the communication device 40 generates an information signal indicating the measurement result of the reception quality and transmits the information signal from the information transmission / reception unit 43 via the antenna 34.

  The communication device 20 receives the radio signal transmitted from the antenna 34 of the communication device 40 by the antenna 33 and supplies the video signal output device 10 with an information signal indicating the obtained reception quality measurement result.

  The video signal output device 10 supplies an information signal indicating the measurement result of the reception quality supplied from the communication device 20 to the control unit 16. The control unit 16 generates an on-screen information signal based on the information signal indicating the reception quality measurement result and supplies the on-screen information signal to the display superimposing unit 12. Based on the on-screen information signal, the display superimposing unit 12 superimposes a video signal indicating a measurement result of the reception quality on the video signal generated by the video signal generating unit. The video signal on which the video indicating the measurement result of the reception quality is superimposed is supplied to the communication device 20 via the transmission signal generation unit 13 and the interface 14.

  The communication device 20 transmits from the antenna 31 as a radio signal a video signal on which a video indicating the measurement result of the reception quality supplied from the video signal output device 10 is superimposed.

  The communication device 40 receives the radio signal transmitted from the antenna 31 through the antenna 32. The received radio signal is demodulated and error correction processing is performed, and the obtained video signal is supplied to the video display device 50.

  The video display device 50 performs video display based on the video signal supplied from the communication device 40. At this time, for example, a number indicating a measurement result of reception quality, a bar display, etc. are superimposed on a video obtained by receiving a broadcast signal and a video obtained by playing a broadcast signal on the screen. The measurement result is displayed as a superimpose. For this reason, even if the communication device 20 and the communication device 40 are separated, the direction of the antenna 31 connected to the communication device 20 is determined by referring to the reception quality measurement result displayed on the screen of the video display device 50. Can be easily set in the direction in which is best.

  The video signal output device 10 may generate an adjustment video signal for adjusting the antenna orientation and supply the video signal to the communication device 20. In this case, the error rate detected by the communication device 40 does not change according to the transmitted video, and the error rate according to the reception quality can be detected with high accuracy.

  Here, when the video signal output device 10 and the video display device 50 are connected by the DVI interface, the interface 21 of the communication device 20 and the interface 42 of the communication device 40 use the DVI interface. In this DVI interface, a TMDS transmission path and a transmission path called DDC (registered trademark of Video Electronics Standards Association): Display Data Channel are provided. Therefore, if the information signal indicating the reception quality is transmitted using the DDC, the information signal indicating the reception quality can be supplied from the communication device 20 to the video signal output device 10 without providing a new transmission path. .

  Further, when the video signal output device 10 and the video display device 50 are connected by an HDMI interface, the interface 21 of the communication device 20 and the interface 42 of the communication device 40 use the HDMI interface. In this HDMI interface, a TMDS transmission line, a transmission line called DDC, and a transmission line called CEC (Consumer Electronics Control) Line are provided. Therefore, if an information signal indicating reception quality is transmitted using DDC or CECLine, an information signal indicating reception quality is transmitted from the communication device 20 to the video signal output device 10 without providing a new transmission path. Can supply.

  Further, when a transmission path of an interface different from the above-described digital interface is provided for the connection between the video signal output device 10 and the video display device 50, for example, control corresponding to an infrared remote control operation can be performed by wire. When an interface is provided, an information signal indicating reception quality may be supplied from the communication device 20 to the video signal output device 10 using this interface.

  As described above, according to the above-described embodiment, the information indicating the reception quality in the communication device 40 on the video receiving side is displayed on the screen of the video display device 50 connected to the communication device 40. The direction of the antenna 31 connected to the video transmission side communication device 20 can be easily adjusted so that the reception quality is the best, while referring to the video indicating the reception quality displayed in 50. In addition, since the measurement result is displayed as a superimpose display, the antenna orientation can be adjusted while viewing a broadcast program or the like. In the antenna direction adjustment, not only the antenna 31 but also the direction of the antenna 32 may be adjusted.

  In addition, since the video signal of the information indicating the reception quality is superimposed on the video signal supplied from the video signal output device 10 to the video display device 50, the video indicating the reception quality is displayed on the video display device 50. It is not necessary to provide a signal generation circuit, a drive circuit, or the like, and the existing video display device 50 can be used. Since the video signal indicating the reception quality is superimposed and transmitted, the video indicating the reception quality can be displayed on the video display device 50 even when the video signal is encrypted and transmitted for copyright protection. . Further, the connection between the video signal output device 10 and the communication device 20 and the connection between the communication device 40 and the video display device 50 are digital interfaces provided for connecting the video signal output device 10 and the video display device 50. Therefore, it is not necessary to newly provide an interface for connecting the communication devices 20 and 40 to the video signal output device 10 and the video display device 50, and the existing video signal output device 10 and the video display device 50 are used. Can do.

  In addition, when a high frequency such as a millimeter wave band is used as the first radio signal, if the two-way communication is enabled between the communication device 20 and the communication device 40, the communication device 20 has a frequency band of the first radio signal. A corresponding receiving unit must be provided, and the communication device 40 must be provided with a transmission unit corresponding to the frequency band of the first radio signal, which makes the communication devices 20 and 40 expensive. However, by using a frequency band lower than that of the first radio signal as the second radio signal, the information transmitting / receiving unit that performs bidirectional communication with the second radio signal is inexpensive, and the communication devices 20 and 40 are configured at low cost. it can.

  As described above, the reception quality display system, the reception quality communication system, the communication apparatus, and the reception quality display method according to the present invention are useful when adjusting the direction of the antenna in wireless transmission of video, This is applied to the case where communication is performed using a high frequency band in order to transmit high-quality moving images.

It is a block diagram which shows the structure of a reception quality display system. It is a block diagram which shows the structure of a video signal output device. It is a block diagram which shows the structure of the communication apparatus of a video transmission side. It is a block diagram which shows the structure of the communication apparatus by the side of video reception.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Video signal output device, 11 ... Video signal generation part, 12 ... Display superimposition part, 13 ... Transmission signal generation part, 14, 21, 42 ... Interface, 15 ... Information Signal processing unit 16, 24, 44 ... control unit, 17, 25, 45 ... bus, 20, 40 ... communication device, 22 ... transmission unit, 23, 43 ... information transmission / reception unit , 31, 32, 33, 34 ... antenna, 41 ... receiving unit, 50 ... video display device, 221 ... transmission signal processing unit, 222 ... transmission processing unit, 231, 431 ... Information signal processing unit, 232, 432 ... communication processing unit, 411 ... reception processing unit, 412 ... reception signal processing unit

Claims (16)

A video signal output device for outputting a video signal;
A first communication device that transmits a video signal output from the video signal output device as a first wireless signal;
A second communication device that receives the first wireless signal and generates a video signal from the first wireless signal;
A video display device that performs video display based on the video signal generated by the second communication device;
The second communication device measures reception quality of the first radio signal and transmits a measurement result as a second radio signal;
The first communication device supplies a measurement result obtained by receiving the second wireless signal to the video signal output device,
The reception quality display system, wherein the video signal output device generates and outputs a video signal indicating a measurement result supplied from the first communication device. The reception quality display system according to claim 1, wherein the second radio signal uses a frequency band lower than that of the first radio signal. The connection between the video signal output device and the first communication device, and the connection between the second communication device and the video display device are provided to connect the video signal output device and the video display device. 2. The reception quality display system according to claim 1, wherein a digital interface is used. 2. The reception quality display system according to claim 1, wherein the video signal output device generates a video signal in which a measurement result supplied from the first communication device is displayed as a superimposed display. A first communication device that transmits a video signal supplied from the video signal output device as a first wireless signal;
A second communication device that receives the first wireless signal, generates a video signal from the first wireless signal, and outputs the video signal to a video display device;
The second communication device includes a transmission unit that measures reception quality of the first radio signal and transmits a measurement result as a second radio signal;
The reception quality communication system, wherein the first communication device includes a reception unit that outputs the measurement result obtained by receiving the second radio signal. The first and second communication devices each have a digital interface provided to connect the video signal output device and the video display device;
The first communication device transmits the video signal supplied via the digital interface as the first wireless signal,
6. The reception quality communication system according to claim 5, wherein the second communication device outputs the generated video signal via the digital interface. The reception quality communication system according to claim 6, wherein the first communication device outputs the measurement result via the digital interface. 6. The reception quality communication system according to claim 5, wherein the second communication device transmits the second radio signal using a frequency band lower than that of the first radio signal. Transmitting means for transmitting the input video signal as a first wireless signal;
And a receiving unit configured to receive a second radio signal indicating a measurement result of reception quality of the first radio signal and output the obtained measurement result. A digital interface for connecting the video signal output device and the video display device is provided.
The transmission means transmits the video signal input through the digital interface as a first wireless signal,
The communication apparatus according to claim 9, wherein the receiving unit outputs the measurement result via the digital interface. Receiving means for outputting a video signal obtained by receiving a first wireless signal transmitted from another device on the video transmitting side ;
Measuring means for measuring the reception quality of the first radio signal;
Wherein said another that communication device having a transmitting means for transmitting to the device a measurement result measured by the measuring means as a second radio signal. A digital interface for connecting the video signal output device and the video display device is provided.
12. The communication apparatus according to claim 11, wherein the receiving unit outputs a video signal obtained by receiving the first wireless signal via the digital interface. 12. The communication apparatus according to claim 11, wherein the transmission unit transmits the second radio signal using a frequency band lower than that of the first radio signal. Using a video display system that transmits a video signal as a first wireless signal and displays a video based on the video signal obtained by receiving the first wireless signal,
Measuring the reception quality of the first radio signal and transmitting the measurement result as a second radio signal;
A reception quality display method, wherein a video signal indicating a measurement result obtained by receiving the second wireless signal is transmitted as the first wireless signal. 15. The reception quality display method according to claim 14, wherein the second radio signal uses a frequency band lower than that of the first radio signal. Said video signal indicative of the measurement result, 請 Motomeko 14 reception quality display method according the measurement result shall be the video signal and superimpose display.

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